Abstract
BACKGROUNDSize of fruit is an important issue in determining yield at harvest. Even under controlled conditions, variation between fruit and trusses can be considerable. As an easy to measure indication of size, the diameter of tomatoes growing in trusses was assessed in three experiments with different number of tomatoes per truss, as well as cultivars, and also by varying the level of ions in the recirculated drain water.RESULTSBy applying the von Bertalanffy growth model, more than 99% of the variation present could be explained by the time of fruit set for all tomatoes growing anywhere in the trusses. A linear relationship between time of fruit set and the biological shift factor, an indication of developmental age, was observed. Integrating this linear relationship in the analysis of the diameter data removed one stochastic variable (biological shift factor), effectively halving the number of parameters to be estimated.CONCLUSIONThe results of the present study indicate that the major part of the variation present in the diameter of tomatoes growing in trusses is the result of variation in the time of fruit set of individual fruits. The position within the greenhouse (i.e. local differences in assimilates supply) exerted only a minor effect on diameter development. Accordingly, the time of fruit set largely determines fruit size. Likely, growing conditions before fruit set are crucial for final fruit size. The time of fruit set of each tomato in the truss and the local growing conditions within the greenhouse that affect assimilate supply need to be assessed accurately for a reliable size prediction.
Highlights
Fruit size is an important issue in horticultural production as it determines, together with crop load, fruit yield
We aim to show that, by further adapting the von Bertalaffy model, the dynamics of diameter increase of tomato in trusses can be described accurately regardless of growth conditions and management
Diameter data were analysed using indexed nonlinear regression based on Eqn (1), estimating the biological shift factor (Δt) and the time of fruit set (t0) for each individual tomato, applying a common rate constant of size increase (k) for all tomatoes in a treatment (Table 2)
Summary
Fruit size is an important issue in horticultural production as it determines, together with crop load, fruit yield. Precise monitoring of the timing and quantification of yield is becoming increasingly feasible in greenhouse management as a result of the emergence of machine vision.[1,2,3] Fruit size depends on many factors, including cultivar, foliar fertilisation,[4, 5] irrigation,[6] crop load[5, 7] and weather conditions.[8] Temperature has a major effect during the cell division period and probably during formation in the meristem, but far less so during cell expansion period.[9,10,11]. Size of fruit is an important issue in determining yield at harvest. As an easy to measure indication of size, the diameter of tomatoes growing in trusses was assessed in three experiments with different number of tomatoes per truss, as well as cultivars, and by varying the level of ions in the recirculated drain water
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